Brookhaven Lab's Ivan Božović Honored as Max Planck Lecturer

Condensed matter physicist gave the prestigious titled lecture and announced the emergence of a new field called "interface physics."

The answers to some of the greatest puzzles in science are hidden in the thinnest surfaces imaginable. Scientists hope that long-sought technology goals such as room-temperature superconductivity may one day be achieved through explorations of two-dimensional structures produced in the world's most advanced laboratories. The global quest to unravel poorly understood quantum-scale interactions in these materials could produce unprecedented technological breakthroughs.

In recognition of his leading role in advancing condensed matter physics, Ivan Božović of the U.S. Department of Energy's Brookhaven National Laboratory was selected to give the 2013 Max Planck Lecture on May 8 at the Max Planck Institute for Solid State Research in Stuttgart, Germany. The prestigious honor was accompanied by a gold medal and an opportunity to present a personal perspective on the field's status and prospects to an audience of prominent scientists.

"These phenomena occur at the far horizon of physics, and experimental techniques are advancing fast to probe this two-dimensional world."

— Ivan Božović

"It was a great honor and a great responsibility to follow in the steps of those scientific luminaries invited to give this lecture in previous years," Božović said. "It was also an opportunity for reflection and synthesis. I believe that we are on the cusp of yet another revolution in physics built on the brilliant work of my peers over the past decade, and it was my privilege to suggest that we are witnessing the birth of an exciting new field of science, which I dubbed 'Interface Physics.' It can be defined by a distinct set of novel problems, techniques, phenomena, and theoretical concepts, which I have tried to identify and elucidate."

Božović leads Brookhaven Lab's Molecular Beam Epitaxy (MBE) group, which builds custom-designed thin films one atomic layer at a time. While his research focuses largely on hunting for the mechanism behind high-temperature superconductivity—uniquely capable of transmitting electricity with perfect efficiency—the exceptional capabilities of the MBE apparatus allow broad collaborations on the wide range of research requiring atomic-scale synthesis.

Interface physics deals with the interactions between electrons and atoms, and the states of matter that emerge in the thin layers of heterostructures, where two different materials join together. The discoveries scientists are making in interface physics could lay the foundation for breakthroughs in consumer electronics, national security, and many other fields.

In Božović's lecture at the Max Planck Institute—one of the leading condensed matter physics center in Europe—he outlined some of the phenomena explored at the frontier of interface physics:

Electronic and atomic reconstruction: The component materials in heterostructures exhibit various mismatches, including in their crystal structures and in the electronic chemical potentials. These mismatches require local transformations in both atomic and electronic structures, fundamentally changing the material's behavior.

Metastability: Most heterostructures are not thermodynamically stable, meaning they would naturally degrade into another state if heated up sufficiently and cooled back down. The precise atomic structure of metastable interface configurations is impossible to predict, but new techniques are emerging to experimentally reveal the elusive details.

Two-dimensional quantum confinement: In some heterostructures, ultrathin conductive layers form at the interface. Within these, electrons propagate with high lateral mobility but cannot wander outside of the layer. This confinement can be extreme enough to cause unusual physical properties to emerge, such as strongly fluctuating superconductivity or ferromagnetism.

"These phenomena occur at the far horizon of physics, and experimental techniques are advancing fast to probe this two-dimensional world," Božović said.

The laboratories in Brookhaven Lab's new Interdisciplinary Science Building (ISB) will further advance the research of Božović and his colleagues. The ISB houses an innovative MBE laboratory where the synthesis of atomically perfect 2D materials will be uniquely linked to state-of-the-art surface-analysis techniques, making new collaborations possible.

Bozovic earned a Ph.D. in physics from the University of Belgrade in Yugoslavia in 1975. He remained there until 1985 and served as a professor and the head of the Physics Department. From 1986 until 1988, he worked at the Applied Physics Department at Stanford University. He was a senior research scientist at Varian Research Center in Palo Alto, California, from 1989 to 1998, and the chief technical officer and principal scientist for Oxxel GmbH in Germany from 1998 to 2002. He joined Brookhaven as a senior scientist and the leader of the Molecular Beam Epitaxy group in 2003.

Brookhaven National Laboratory

Brookhaven National Laboratory is a multipurpose research
institution funded by the U.S. Department of Energy. Located on
Long Island, NY, Brookhaven operates large-scale facilities for
studies in physics, chemistry, biology, medicine, applied
science, and advanced technology. The Laboratory's almost 3,000
scientists, engineers, and support staff are joined each year by
more than 5,000 visiting researchers from around the world.

One of ten national laboratories overseen and primarily funded by the Office of Science of the
U.S. Department of Energy (DOE), Brookhaven National Laboratory conducts research in the physical,
biomedical, and environmental sciences, as well as in energy technologies and national security.
Brookhaven Lab also builds and operates major scientific facilities available to university, industry
and government researchers. Brookhaven is operated and managed for DOE's Office of Science by Brookhaven
Science Associates, a limited-liability company founded by the Research Foundation for the State
University of New York on behalf of Stony Brook University, the largest academic user of Laboratory
facilities, and Battelle, a nonprofit applied science and technology organization.